A Review of Power Electronic Devices for Heavy Goods Vehicles Electrification: Performance and Reliability

Abstract: This review explores the performance and reliability of power semiconductor devices required to enable the electrification of heavy goods vehicles (HGVs). HGV electrification can be implemented using (i) batteries charged with ultra-rapid DC charging (350 kW and above); (ii) road electrification with overhead catenaries supplying power through a pantograph to the HGV powertrain; (iii) hydrogen supplying power to the powertrain through a fuel cell; (iv) any combination of the first three technologies. At the he… Show more

“…What is very clear though, is that solar PV development in the last decade is an incredible story of technical, techno-economic and policy innovation -efforts which continue at pace to both drive down LCOE and increase PCE. There are a small number of promising areas in this regard, notably: the development of silicon-perovskite tandem PV (OxfordPV, 2023) with PCEs >30%; cell-and-modulelevel architectural innovations such as the TOPcon (tunnel oxide passivated contact) and IBC interdigitated back contact silicon technologies (IRENA, 2023); accelerated deployment of so-called bifacial crystalline silicon modules at utility-scale (IRENA, 2023); and the development of more efficient power electronics (for inversion) based upon wide band gap semiconductors such as SiC and GaN (Alatise et al, 2023).…”

Solar energy for societal decarbonisation: a perspective on emerging opportunities in utility-scale solar electricity and solar in the built environment

“…What is very clear though, is that solar PV development in the last decade is an incredible story of technical, techno-economic and policy innovation -efforts which continue at pace to both drive down LCOE and increase PCE. There are a small number of promising areas in this regard, notably: the development of silicon-perovskite tandem PV (OxfordPV, 2023) with PCEs >30%; cell-and-modulelevel architectural innovations such as the TOPcon (tunnel oxide passivated contact) and IBC interdigitated back contact silicon technologies (IRENA, 2023); accelerated deployment of so-called bifacial crystalline silicon modules at utility-scale (IRENA, 2023); and the development of more efficient power electronics (for inversion) based upon wide band gap semiconductors such as SiC and GaN (Alatise et al, 2023).…”

Solar energy for societal decarbonisation: a perspective on emerging opportunities in utility-scale solar electricity and solar in the built environment

A New Gate-Trench Junctionless SiC Power MOSFET: Performance Assessement and Circuit Level Investigation

A Comparative Evaluation of SMD and TO220 Power MOSFETs in Power Electronics Application